Move constructPathNPC to Transport

This commit is contained in:
gsemaj 2021-05-05 21:22:11 -04:00 committed by Gent Semaj
parent 6ae4ab2cbf
commit 974b67d4b6
3 changed files with 37 additions and 36 deletions

View File

@ -57,39 +57,6 @@ static void constructPathSkyway(json& pathData) {
Transport::SkywayPaths[pathData["iRouteID"]] = points; Transport::SkywayPaths[pathData["iRouteID"]] = points;
} }
static void constructPathNPC(int32_t id, NPCPath* path) {
BaseNPC* npc = NPCManager::NPCs[id];
if(npc->type == EntityType::MOB)
((Mob*)(npc))->staticPath = true;
// Interpolate
std::vector<Vec3> pathPoints = path->points;
std::queue<Vec3> points;
auto _point = pathPoints.begin();
Vec3 from = *_point; // point A coords
for (_point++; _point != pathPoints.end(); _point++) { // loop through all point Bs
Vec3 to = *_point; // point B coords
// add point A to the queue
if (path->isRelative) {
// relative; the NPCs current position is assumed to be its spawn point
Vec3 fromReal = { from.x + npc->x, from.y + npc->y, from.z + npc->z };
Vec3 toReal = { to.x + npc->x, to.y + npc->y, to.z + npc->z };
points.push(fromReal);
Transport::lerp(&points, fromReal, toReal, path->speed); // lerp from A to B
}
else {
// absolute
points.push(from);
Transport::lerp(&points, from, to, path->speed); // lerp from A to B
}
from = to; // update point A
}
Transport::NPCQueues[id] = points;
}
/* /*
* Load all relevant data from the XDT into memory * Load all relevant data from the XDT into memory
* This should be called first, before any of the other load functions * This should be called first, before any of the other load functions
@ -908,7 +875,7 @@ static void loadNPCs(json& npcData) {
NPCPath* npcPath = Transport::findApplicablePath(npcID, type); NPCPath* npcPath = Transport::findApplicablePath(npcID, type);
if (npcPath != nullptr) { if (npcPath != nullptr) {
//std::cout << "[INFO] Found path for NPC " << npcID << std::endl; //std::cout << "[INFO] Found path for NPC " << npcID << std::endl;
constructPathNPC(npcID, npcPath); Transport::constructPathNPC(npcID, npcPath);
} }
} }
} }
@ -954,7 +921,7 @@ static void loadMobs(json& npcData, int32_t* nextId) {
NPCPath* npcPath = Transport::findApplicablePath(npcID, npc["iNPCType"]); NPCPath* npcPath = Transport::findApplicablePath(npcID, npc["iNPCType"]);
if (npcPath != nullptr) { if (npcPath != nullptr) {
//std::cout << "[INFO] Found path for mob " << npcID << std::endl; //std::cout << "[INFO] Found path for mob " << npcID << std::endl;
constructPathNPC(npcID, npcPath); Transport::constructPathNPC(npcID, npcPath);
} }
} }
@ -983,7 +950,7 @@ static void loadMobs(json& npcData, int32_t* nextId) {
NPCPath* npcPath = Transport::findApplicablePath(leadID, leader["iNPCType"]); NPCPath* npcPath = Transport::findApplicablePath(leadID, leader["iNPCType"]);
if (npcPath != nullptr) { if (npcPath != nullptr) {
//std::cout << "[INFO] Found path for mob " << leadID << std::endl; //std::cout << "[INFO] Found path for mob " << leadID << std::endl;
constructPathNPC(leadID, npcPath); Transport::constructPathNPC(leadID, npcPath);
} }
tmp->groupLeader = leadID; tmp->groupLeader = leadID;

View File

@ -384,6 +384,39 @@ NPCPath* Transport::findApplicablePath(int32_t id, int32_t type, int taskID) {
return match; return match;
} }
void Transport::constructPathNPC(int32_t id, NPCPath* path) {
BaseNPC* npc = NPCManager::NPCs[id];
if (npc->type == EntityType::MOB)
((Mob*)(npc))->staticPath = true;
// Interpolate
std::vector<Vec3> pathPoints = path->points;
std::queue<Vec3> points;
auto _point = pathPoints.begin();
Vec3 from = *_point; // point A coords
for (_point++; _point != pathPoints.end(); _point++) { // loop through all point Bs
Vec3 to = *_point; // point B coords
// add point A to the queue
if (path->isRelative) {
// relative; the NPCs current position is assumed to be its spawn point
Vec3 fromReal = { from.x + npc->x, from.y + npc->y, from.z + npc->z };
Vec3 toReal = { to.x + npc->x, to.y + npc->y, to.z + npc->z };
points.push(fromReal);
Transport::lerp(&points, fromReal, toReal, path->speed); // lerp from A to B
}
else {
// absolute
points.push(from);
Transport::lerp(&points, from, to, path->speed); // lerp from A to B
}
from = to; // update point A
}
Transport::NPCQueues[id] = points;
}
void Transport::init() { void Transport::init() {
REGISTER_SHARD_TIMER(tickTransportationSystem, 1000); REGISTER_SHARD_TIMER(tickTransportationSystem, 1000);

View File

@ -51,4 +51,5 @@ namespace Transport {
void lerp(std::queue<Vec3>*, Vec3, Vec3, int); void lerp(std::queue<Vec3>*, Vec3, Vec3, int);
NPCPath* findApplicablePath(int32_t, int32_t, int = -1); NPCPath* findApplicablePath(int32_t, int32_t, int = -1);
void constructPathNPC(int32_t, NPCPath*);
} }